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Vascular Endothelium in Human Physiology and Pathophysiology
Endothelial dysfunction is now regarded as an early marker of vascular disease and therefore an important target for therapeutic intervention and discovery of novel treatments. Ideal for both basic and clinical scientists, whether in industry or academia, and physicians, Vascular Endothelium in Human Physiology and Pathophysiology provides an up-to-date review of the vascular functions of the endothelium and its role in key areas of cardiovascular disease. It focuses on evidence from studies in humans.
EDHF
The advances made in vascular biology in the last 25 years have considerably changed the perception that one could have of the endothelial cells. Once considered as a diffusion barrier preventing the access of the blood cells to the vascular matrix, the endothelium is now recognized as playing a major role in the control of blood fluidity, platelet aggregation, and vascular tone, but also in immunology, inflammation, angiogenesis, and for serving as a metabolizing and an endocrine organ. -- from the preface Cardiovascular diseases, so prevalent in the Western world during the twentieth century, could well become the scourge of the twenty-first century in emerging countries as well as the Wes...
The Blood-Brain Barrier, Amino Acids and Peptides
Definition of the barrier The interstitial fluid (rSF) of the brain is separated from the blood by the blood-brain barrier (BBB). This barrier must not be thought of as a single entity or as an absolute restriction to all molecules, but as a multiple structure located at several sites within the brain. The first of these interfaces is located at the endothelium of the brain capillaries. Secondly there is a potential site for interchange on the outer linings of the brain between the dura and the arachnoid membranes. Thirdly, there are the choroid plexuses and the cerebrospinal fluid (CSF) which is in contact with the very permeable internal ependymal lining of the brain (Figure 1. 1). Finally...
Molecular Basis for Microcirculatory Disorders
A large number of cardiovascular diseases are accompanied by inflammation. This volume on the molecular basis of microcirculatory disorders gives a comprehensive summary of key steps in the inflammatory cascade. Leading investigators present a state-of-the-art analysis of the molecular determinants of leukocyte-endothelial cell adhesion, mechanotransduction in endothelial and inflammatory cells, mechanisms of cell activation, microvascular apoptosis with applications to ischemia-reperfusion in the brain, the heart and in venous disease, diabetes and hypertension. The book provides the latest thinking in these important cardiovascular problems, with the most contemporary literature and a look at the increasingly complex events during inflammation. Molecular biology tools, microvascular and modern bioengineering analysis are seamlessly integrated into the analysis of clinical problems. The book helps not only newcomers to gain entry into the interesting problems associated with microvascular disorders, but lays the foundation for the design of new therapeutic interventions.
Transport Phenomena in the Nervous System
This book presents the papers that were delivered at the Satellite Symposium of the International Society for Neurochemistry in Padua, September, 1975. Having such Satellite Symposia was a new experiment for the Society, and all signs, including those from Padua, indicate that it was a very successful experiment, which will be an old tradition for the Society. The large international meeting affords the opportunity for presentations from all areas, for meeting of colleagues from various backgrounds and disciplines. The Satellite Symposia allow people from the same area of interest to discuss their subject in depth, and as such represent meetings of possibly the greatest practical significanc...
L-Arginine in Clinical Nutrition
This text presents the application of current nutritional knowledge by physicians and dietitians and incorporates emerging fields of science and important discoveries. It contains seven major sections. Section 1: Basic Processes at the Cellular Levels, Section 2: Arginine Metabolism and Functions, Section 3: Arginine Status in Cells Related to Organ Damage and Disease, Section 4: Arginine Status and Use in Healthy Individuals, Section 5: Arginine and Diseases of the Gastrointestinal Tract, Section 6: Therapeutic uses of Arginine: Diabetes, Obesity and Cardiovascular Diseases and Section 7: Therapeutic Uses of Arginine: Cancer, Wound Healing and Infectious Disease. Written by authors of international and national standing, leaders in the field and trendsetters, Arginine in Clinical Nutrition is essential reading for nutritionists and dietitians, public health scientists, doctors, epidemiologists, health care professionals of various disciplines, policy makers and marketing and economic strategists.
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Mammalian Amino Acid Transport
Amino acid transport is a part of each of two larger subjects, amino acid metabolism and the biomembrane transport of various . small molecules and ions. Nevertheless in this volume we treat amino acid transport as more than a fragment of either of these two larger subjects. A more comprehensive approach is justified when we remember two historic and ongoing aspects of the title subject. First, amino acid transport had its beginning and acquired a distinct momentum (even if somewhat interrupted from 1913 until about 1945) as amino acid metabolism with the central and pioneer work of Van Slyke and Meyer in 1913. The reviews in this volume will show that it steadily becomes a larger aspect of ...
